A synchronous rectification controller that controls driving a synchronous rectification transistor arranged on secondary side, includes: a gate terminal being electrically connectable to a gate of the synchronous rectification transistor; a drain terminal being electrically connectable to a drain of the synchronous rectification transistor via a first resistor; a first comparator comparing a drain terminal voltage generated at the drain terminal with negative first threshold voltage; a second comparator comparing the drain terminal voltage with negative second threshold voltage higher than the first threshold voltage; and a driver performing on/off control of the synchronous rectification transistor based on result of the comparison by the first comparator and result of the comparison by the second comparator, wherein when the synchronous rectification transistor is turned on, voltage is added to the drain terminal voltage by current flowing through the first resistor according to a second resistor.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A synchronous rectification controller that controls driving a synchronous rectification transistor arranged on a secondary side, comprising: a gate terminal capable of being electrically connected to a gate of the synchronous rectification transistor; a drain terminal capable of being electrically connected to a drain of the synchronous rectification transistor via a first resistor; a first comparator configured to compare a drain terminal voltage generated at the drain terminal with a negative first threshold voltage; a second comparator configured to compare the drain terminal voltage with a negative second threshold voltage higher than the negative first threshold voltage; a driver configured to perform an on/off control of the synchronous rectification transistor based on a result of the comparison by the first comparator and a result of the comparison by the second comparator; a resistor terminal capable of being connected to a first end of a second resistor; an error amplifier including a first input terminal to which a reference voltage is applied; a transistor including a control end to which an output end of the error amplifier is connected, and a first end connected to the resistor terminal together with a second input end of the error amplifier; and a current mirror configured to cause a current corresponding to a current flowing through the transistor to flow through the first resistor through the drain terminal, wherein the synchronous rectification controller is operable such that when the synchronous rectification transistor is turned on, a voltage is added to the drain terminal voltage by a current flowing through the first resistor according to the second resistor.
2. The synchronous rectification controller of claim 1 , wherein the first end of the second resistor is capable of being electrically connected to the gate terminal, and wherein a second end of the second resistor is electrically connected between the first resistor and the drain terminal.
3. The synchronous rectification controller of claim 2 , wherein the gate terminal is capable of being connected to a first end of a third resistor, wherein a second end of the third resistor is connected to the gate, and wherein the first end of the second resistor is electrically connected between the gate and the third resistor.
4. The synchronous rectification controller of claim 3 , wherein a cathode of a first Zener diode is connected between the gate and the third resistor, and wherein an anode of the first Zener diode is connected to the first end of the second resistor.
5. The synchronous rectification controller of claim 2 , wherein the gate terminal is capable of being connected to a first end of a third resistor, wherein a second end of the third resistor is connected to the gate, and wherein the first end of the second resistor is connected between the third resistor and the gate terminal.
6. The synchronous rectification controller of claim 2 , wherein the second end of the second resistor is connected to an anode of a first diode, and wherein a cathode of the first diode is connected between the first resistor and the drain terminal.
7. The synchronous rectification controller of claim 1 , wherein a first end of an external capacitor is connected between the first resistor and the drain terminal.
8. An isolated synchronous rectification type DC/DC converter comprising: the synchronous rectification controller of claim 1 ; the synchronous rectification transistor; the first resistor; and the second resistor.
9. The isolated synchronous rectification type DC/DC converter of claim 8 , wherein the isolated synchronous rectification type DC/DC converter is an LLC converter.
10. The isolated synchronous rectification type DC/DC converter of claim 8 , wherein the isolated synchronous rectification type DC/DC converter is a fly-back converter.
11. A synchronous rectification controller that controls driving a synchronous rectification transistor arranged on a secondary side, comprising: a gate terminal capable of being electrically connected to a gate of the synchronous rectification transistor; a drain terminal capable of being electrically connected to a drain of the synchronous rectification transistor via a first resistor; a first comparator configured to compare a drain terminal voltage generated at the drain terminal with a negative first threshold voltage; a second comparator configured to compare the drain terminal voltage with a negative second threshold voltage higher than the negative first threshold voltage; and a driver configured to perform an on/off control of the synchronous rectification transistor based on a result of the comparison by the first comparator and a result of the comparison by the second comparator, wherein the synchronous rectification controller is operable such that when the synchronous rectification transistor is turned on, a voltage is added to the drain terminal voltage by a current flowing through the first resistor according to a second resistor, wherein a first end of the second resistor is capable of being electrically connected to the gate terminal, wherein a second end of the second resistor is electrically connected between the first resistor and the drain terminal, and wherein the second end of the second resistor is directly connected to the drain terminal.
12. The synchronous rectification controller of claim 11 , wherein the gate terminal is capable of being connected to a first end of a third resistor, wherein a second end of the third resistor is connected to the gate, and wherein the first end of the second resistor is electrically connected between the gate and the third resistor.
13. The synchronous rectification controller of claim 12 , wherein a cathode of a first Zener diode is connected between the gate and the third resistor, and wherein an anode of the first Zener diode is connected to the first end of the second resistor.
14. The synchronous rectification controller of claim 11 , wherein the gate terminal is capable of being connected to a first end of a third resistor, wherein a second end of the third resistor is connected to the gate, and wherein the first end of the second resistor is connected between the third resistor and the gate terminal.
15. The synchronous rectification controller of claim 11 , wherein the second end of the second resistor is connected to an anode of a first diode, and wherein a cathode of the first diode is connected between the first resistor and the drain terminal.
16. The synchronous rectification controller of claim 11 , wherein a first end of an external capacitor is connected between the first resistor and the drain terminal.
17. An isolated synchronous rectification type DC/DC converter comprising: the synchronous rectification controller of claim 11 ; the synchronous rectification transistor; the first resistor; and the second resistor.
18. The isolated synchronous rectification type DC/DC converter of claim 17 , wherein the isolated synchronous rectification type DC/DC converter is an LLC converter.
19. The isolated synchronous rectification type DC/DC converter of claim 17 , wherein the isolated synchronous rectification type DC/DC converter is a fly-back converter.
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June 16, 2020
May 24, 2022
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